KR20130076676A - Upgrading apparatus, display apparatus, control method thereof and display system - Google Patents

Abstract

PURPOSE: An upgrade device, a display device thereof, a control method thereof, and a display system thereof are provided to increase efficiency and to secure the operation stability of the display system by replacing the display device for a part or the whole of functions. CONSTITUTION: An interface unit (210) is connected to a display device (100) displaying an image to communicate with the display device. An image processing unit (220) processes an image signal corresponding to the image displayed on the display device. When an upgrade device is connected to the display device, a control unit (260) displays the image signal on the display device by processing the image signal and operates the upgrade device based on information received from the display device. The interface unit is connected to a first interface unit of the display device to communicate with the first interface unit. [Reference numerals] (100) Display device; (110) First interface unit; (120) First image processing unit; (130) Display unit; (140) User input unit; (150) First storage unit; (160) First control unit; (200) Upgrade device; (210) Second interface unit; (211) Fixed interface; (212) Flexible interface; (220) Second image processing unit; (250) Second storage unit; (260) Second control unit; (300) Image supply source; (AA) User input

Description

Upgrade apparatus, display apparatus, control method and display system {UPGRADING APPARATUS, DISPLAY APPARATUS, CONTROL METHOD THEREOF AND DISPLAY SYSTEM}

The present invention relates to an upgrade apparatus, a display apparatus, a control method, and a display system, and more particularly, to an upgrade apparatus, a display apparatus, a control method, and a display system, in which an upgrade apparatus is connected to a display apparatus to perform communication. .

A display device such as a TV processes image signal / image data transmitted from various external image sources or stored in itself, and displays the image / video data on a display panel. Examples of the display device provided to the general user include a TV or a monitor. For example, a display device implemented as a TV may display a broadcast signal received from the outside through various image processing processes such as decoding and scaling, It is provided as an image of a broadcast channel.

The display apparatus includes an image processing board implemented in a circuit configuration including various chipsets and memories to perform such an image processing process.

Recently, due to various factors such as development of technology, response to user's demand, and improvement of convenience, the capability required for the display device has been intensified and expanded. In order to improve the function of the display device, that is, upgrade, it is possible to consider aspects of hardware and aspects of software.

However, the upgrade of the display device from a hardware point of view is that the whole or at least a part of the image processing board embedded in the display device needs to be physically replaced. In terms of software, more advanced software requires hardware designed to cope with it. As a result, general users are burdened with purchasing new upgraded display devices.

An upgrade apparatus of a display apparatus according to an embodiment of the present invention includes an interface unit connected to the display apparatus for displaying an image and communicating with the display apparatus; An image processor which processes an image signal corresponding to an image displayed on the display apparatus; When the upgrade apparatus is connected to the display apparatus through the interface unit, the image processor processes the image signal to control the image processor to display an image on the display apparatus, and the upgrade apparatus is based on information received from the display apparatus. It includes a control unit for controlling to operate.

The interface unit may include a second interface unit connected to a first interface unit of the display apparatus to communicate with the first interface unit, the information including standard information of the first interface unit, and the control unit When the upgrade apparatus is connected to the display apparatus through a second interface unit, the second interface unit may be controlled to perform communication with the display apparatus according to a standard corresponding to the first interface unit.

The controller may control at least one of a configuration, a voltage level, and a transmission speed of a signal transmitted and received through the second interface unit to correspond to the first interface unit.

The second interface unit may include a fixed interface for receiving standard information of the first interface unit and a fluid interface for communicating with the display apparatus in a standard corresponding to the first interface.

The controller may include a sub-control unit that controls the second interface unit to perform communication with the display apparatus in a standard corresponding to the first interface unit.

The sub-control unit may be an integrated circuit including at least one of an FPGA and a microcomputer.

The information includes power information of the display apparatus, and the controller controls the interface unit to receive the power information from the display apparatus, and determines a driving speed of the upgrade apparatus based on the received power information. It can operate at the determined drive speed.

The control unit includes a CPU, a GPU, a DSP, and a memory, and drives the upgrade apparatus according to a setting value of an adjustment item including at least one of the CPU frequency, the GPU frequency, the DSP frequency, and the memory bus speed. You can determine the speed.

The controller may determine the driving speed of the upgrade apparatus by adjusting the set value of the adjustment item according to the operation mode of the display apparatus.

The operation mode of the display device may include at least one of a TV mode, a game mode, an Internet mode, a sports mode, and a music mode.

The controller may reset the setting value of the adjustment item when the operation mode of the display apparatus is changed.

The controller compares the determined driving speed of the upgrade apparatus with the driving speed of the display apparatus, and when the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the controller of the display apparatus performs an operation. You can do that.

The apparatus may further include a storage unit in which driving speed information of the upgrade apparatus corresponding to power information of the display apparatus is stored, and the controller may determine the driving speed stored in correspondence with the received power information as the driving speed of the upgrade apparatus.

The power information may include power information that the display apparatus can supply to the upgrade apparatus, and the controller may control the interface unit to receive power corresponding to the power information from the display apparatus.

On the other hand, the display device according to an embodiment of the present invention, the interface unit for communicating with the upgrade apparatus for processing the image signal received from at least one image source; An image processor which processes the received image signal; A display unit which displays the processed video signal as an image; When the upgrade apparatus is connected through the interface unit, the interface unit controls the interface unit to transmit the information of the display apparatus and the image signal received from the image supply source to the upgrade apparatus and receive the processed image signal from the upgrade apparatus. And a control unit which controls the display unit to display the processed video signal as an image.

The controller may control the interface unit to transmit the standard information of the interface unit to the upgrade apparatus so that communication with the upgrade apparatus is performed in a standard corresponding to the interface unit.

The interface unit may transmit at least one of a configuration, a voltage level, and a transmission rate of a signal transmitted and received through the interface unit to the upgrade apparatus.

The controller may transmit power information of the display apparatus to the upgrade apparatus.

The interface unit may further receive driving speed information of the upgrade apparatus determined based on power information of the transmitted display apparatus from the upgrade apparatus.

The driving speed of the upgrade apparatus may be determined according to a setting value of an adjustment item including at least one of a CPU frequency, a GPU frequency, a DSP frequency, and a memory bus speed of the controller of the upgrade apparatus.

The driving speed of the upgrade apparatus is determined by adjusting the set value of the adjustment item according to the operation mode of the display apparatus, and the operation mode of the display apparatus is a TV mode, a game mode, an internet mode, a sport mode, and a music mode. It may include at least one of.

The controller may control the interface unit to receive the driving speed information of the upgrade apparatus determined by resetting a setting value of the adjustment item when the operation mode of the display apparatus is changed.

The controller compares the determined driving speed of the upgrade apparatus with the driving speed of the display apparatus, and when the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the controller of the display apparatus performs an operation. You can do that.

The power information includes power information that the display apparatus can supply to the upgrade apparatus, and the controller can control the interface unit to supply power corresponding to the power information to the upgrade apparatus.

On the other hand, the control method of the upgrade apparatus of the display apparatus according to an embodiment of the present invention, the step of connecting the upgrade apparatus for processing the image signal corresponding to the image displayed on the display device to the display apparatus; Receiving, by the upgrade apparatus, information of the display apparatus; Operating by the upgrade apparatus based on the received information, and receiving and processing the image signal from the display apparatus through the interface.

The information of the display apparatus includes standard information of the first interface unit of the display apparatus, and communication with the display apparatus is performed in a standard corresponding to the first interface unit according to the received standard information. Performing communication setup of a second interface; The method may further include receiving the video signal from the display device through the second interface.

In the performing of the communication setting, at least one of a configuration, a voltage level, and a transmission speed of a signal transmitted and received with the display apparatus may be set to correspond to the first interface unit.

The second interface unit includes a fixed interface for receiving standard information of the first interface unit and a floating interface for communicating with the display apparatus in a standard corresponding to the first interface, and performing the communication setting. May perform communication setting of the floating interface.

The upgrade apparatus further includes a sub-control unit controlling the second interface unit to perform communication with the display apparatus in a standard corresponding to the first interface unit, wherein the sub-control unit includes at least one of an FPGA and a microcomputer. It may be an integrated circuit.

Receiving the information of the display device includes the step of the power supply of the display device receiving the upgrade information, the step of determining the driving speed of the upgrade device based on the power information of the display device; ; The upgrade apparatus may further include operating at the determined driving speed.

The determining of the driving speed of the upgrade apparatus may include adjusting a setting value of an adjustment item including at least one of a CPU frequency, a GPU frequency, a DSP frequency, and a memory bus speed of the controller.

Adjusting the setting value includes adjusting the setting value of the adjustment item according to the operation mode of the display device, wherein the operation mode of the display device is a TV mode, a game mode, an internet mode, a sport mode, and music. It may include at least one of the modes.

The adjusting of the setting value may include resetting the setting value of the adjustment item when the operation mode of the display apparatus is changed.

Comparing a driving speed of the upgraded device with a driving speed of the display device; As a result of the comparison, when the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the controller of the display apparatus may further include performing an operation.

The method may further include storing driving speed information of the upgrade apparatus corresponding to power information of the display apparatus, and determining the driving speed of the upgrade apparatus may include storing the driving speed stored corresponding to the received power information. It may be determined by the driving speed of the upgrade apparatus.

The power information may include power information that the display apparatus can supply to the upgrade apparatus, and the upgrade apparatus may further include receiving power corresponding to the power information from the display apparatus.

On the other hand, the control method of the display device according to an embodiment of the present invention comprises the steps of: connecting an upgrade device for processing a video signal received from at least one image source to the display device; Transmitting information of the display apparatus to the upgrade apparatus; Transmitting the video signal to the upgrade apparatus; Receiving an image signal processed by the upgrade apparatus; And displaying the received video signal as an image.

The transmitting of the information to the upgrade apparatus includes transmitting standard information of the first interface unit of the display apparatus to the upgrade apparatus, and performs communication with the upgrade apparatus in a standard corresponding to the first interface unit. It may further comprise the step.

The performing of the communication with the upgrade apparatus may include performing communication so that at least one of a configuration, a voltage level, and a transmission rate of a signal transmitted and received through the first interface unit corresponds to the first interface unit. .

The transmitting of the information to the upgrade apparatus includes transmitting power information of the display apparatus to the upgrade apparatus, and driving the upgrade apparatus determined based on power information of the display apparatus transmitted from the upgrade apparatus. The method may further include receiving the speed information.

The driving speed of the upgrade apparatus may be determined according to a setting value of an adjustment item including at least one of a CPU frequency, a GPU frequency, a DSP frequency, and a memory bus speed of the controller of the upgrade apparatus.

The driving speed of the upgrade apparatus is determined by adjusting the set value of the adjustment item according to the operation mode of the display apparatus, and the operation mode of the display apparatus is a TV mode, a game mode, an internet mode, a sport mode, and a music mode. It may include at least one of.

When the operation mode of the display apparatus is changed, the method may further include receiving driving speed information of the upgrade apparatus determined by resetting a setting value of the adjustment item.

Comparing the determined driving speed of the upgrade apparatus with the driving speed of the display apparatus; As a result of the comparison, when the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the control unit of the display apparatus may further include performing an operation.

The power information may include power information that the display apparatus can supply to the upgrade apparatus, and may further include supplying power corresponding to the power information to the upgrade apparatus.

On the other hand, a display system including a display device and an upgrade device according to an embodiment of the present invention, the display device, the first interface unit for communicating with the upgrade device for processing the image signal received from at least one image source; ; A first image processor which processes the received image signal; A display unit which displays the processed video signal; When the upgrade apparatus is connected through the interface unit, controlling the first interface unit to transmit information of the display apparatus to the upgrade apparatus, and controlling the display unit to display an image signal processed by the upgrade apparatus as an image. And a control unit, wherein the upgrade apparatus comprises: a second interface unit connecting to the first interface unit to communicate with the display apparatus; and a second signal processing a video signal corresponding to the image displayed on the display unit; When the image processing unit controls the second image processing unit to process the image signal, and the upgrade apparatus is connected to the display apparatus through the second interface unit, the upgrade apparatus is operated based on the information received from the display apparatus. Second agent controlling to It includes an upgrade device including a fisherman.

The information may include standard information of the first interface unit, and the second controller may control the second interface unit to perform communication with the display apparatus in a standard corresponding to the first interface unit.

The information may include power information of the display apparatus, and the second controller may determine a driving speed of the upgrade apparatus based on the received power information of the display apparatus and operate at the determined driving speed.

1 is a block diagram showing the configuration of a display system according to an embodiment of the present invention.
2 is a block diagram showing a configuration of a display apparatus and an upgrade apparatus according to the first embodiment of the present invention.
3 is a block diagram showing the configuration of a display apparatus and an upgrade apparatus according to a second embodiment of the present invention;
4 is a block diagram showing the configuration of a display apparatus and an upgrade apparatus according to a third embodiment of the present invention.
5 and 6 are exemplary views illustrating a method of upgrading an image processing process of a display apparatus by an upgrade apparatus in the display system of FIGS. 1 to 4, respectively.
7 is a flowchart illustrating a control method of a display apparatus according to a first or second embodiment of the present invention.
8 is a flowchart illustrating a control method of the upgrade apparatus according to the first or second embodiment of the present invention.
9 and 10 are flowcharts illustrating a control method of a display apparatus according to a third embodiment of the present invention.
11 and 12 are flowcharts illustrating a control method of the upgrade apparatus according to the third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a display system 1 according to an embodiment of the present invention.

As shown in FIG. 1, the display system 1 according to the present embodiment includes a display apparatus 100 and an upgrade apparatus 200. The display apparatus 100 and the upgrade apparatus 200 are connected to communicate with each other.

The display apparatus 100 and the upgrade apparatus 200 connected to each other transmit and receive video signals such as broadcast signals and control signals including various data, power, and the like.

The display apparatus 100 processes an image signal provided from an external image source (not shown) according to a preset image processing process and displays the image.

In the system 1 of the present embodiment, a description will be given of a case in which the display apparatus 100 is implemented as a TV displaying a broadcast image based on a broadcast signal / broadcast information / broadcast data received from a transmitting device of a broadcast station. However, the spirit of the present invention is not limited to the implementation example of the display device 100, and various types of implementation examples that can display images in addition to a TV can be applied to the display device 100. [

In addition, the display device 100 is not limited to a broadcast image. For example, the display device 100 may display a moving image based on signals / data received from various types of image sources (not shown) A still image, an application, an on-screen display (OSD), and a graphic user interface (GUI) for controlling various operations.

The upgrade apparatus 200 is communicatively connected to the display apparatus 100. The upgrade apparatus 200 upgrades the existing hardware / software configuration of the connected display apparatus 100 and processes the video signal by the hardware / software configuration of the upgraded display apparatus 100, thereby improving the image quality. Can be displayed.

For example, the upgrade apparatus 200 may be an apparatus for upgrading hardware of a TV, such as an image processing circuit, and may be detachable from the display apparatus 100.

Meanwhile, unlike the case of the present embodiment, the upgrade apparatus 200 may be wirelessly connected to the display apparatus 100. In this case, the upgrade apparatus 200 may receive operating power from a separate external power source or a battery. have. However, in the present embodiment, a case in which the upgrade apparatus 200 is connected to the display apparatus 100 by wire is described.

The display apparatus 100 may process the image signal received from the outside in accordance with a predetermined image processing process to display the image.

According to the present embodiment, the upgrade apparatus 200 is connected to the display apparatus 100 to upgrade the hardware / software configuration of the display system 1 performing the image processing process. The upgrade apparatus 200 receives and processes an image signal from the display apparatus 100 and transmits the processed image signal to the display apparatus 200. The display apparatus 100 displays an image corresponding to the image signal received from the upgrade apparatus 200. Accordingly, an image with relatively improved image quality can be provided to the user.

In the embodiment of the present invention, when the upgrade apparatus 200 is connected to the display apparatus 100, the upgrade apparatus 200 performs an operation based on the information received from the display apparatus 100.

Herein, the information received from the display apparatus 100 may include standard information of the first interface unit 110 of FIGS. 2 to 4, power information of the display apparatus 100, that is, display apparatus 100. May include power information that can be supplied to the upgrade apparatus 200 and operation mode information of the display apparatus 100.

The upgrade apparatus 200 is based on the standard information of the first interface unit 110 received from the display apparatus 100, the first interface unit 100 through the second interface unit (210 in FIGS. 2 to 4). Communication with the display apparatus 100 is performed in a standard corresponding to the above. A detailed operation thereof will be described in more detail with reference to FIGS. 2 and 3.

In addition, the upgrade apparatus 200 determines the driving speed of the upgrade apparatus 200 based on the power information received from the display apparatus 100, and operates at the determined driving speed. A detailed operation thereof will be described in more detail with reference to FIG. 4.

2 is a block diagram showing the configuration of the display apparatus 100 and the upgrade apparatus 200 constituting the display system 1 according to the first embodiment of the present invention.

As shown in FIG. 2, the display apparatus 100 receives a first interface unit 110 to which at least one image source 300 is connected, and receives from the image source 300 through the first interface unit 110. A first image processing unit 120 for processing the video signal to be processed, a display unit 130 for displaying the video signal processed by the first image processing unit 120 as an image, and outputs a predetermined command according to the user input A user input unit 140, a first storage unit 150 for storing unlimited data / information, and a first control unit 160 for controlling operations of various components of the display apparatus 100 are included.

The first interface unit 110 transmits the image signal received from the at least one image source 300 to the first image processor 120, the standard of the received image signal or the image source 300 and the display device 100 ) Has a variety of ways corresponding to the implementation method. For example, the first interface unit 110 may receive signals / data according to standards such as high definition multimedia interface (HDMI), universal serial bus (USB), component, etc. It includes a plurality of corresponding connection terminals (not shown). Various external devices including the image supply source 300 are connected to each of the connection terminals (not shown), thereby enabling communication via the first interface unit 110.

That is, the external device connected to the first interface unit 110 may not be limited to the image supply source 300, and may transmit / receive signals / data to and from the display apparatus 100 through the first interface unit 110. The device may be connected to the first interface unit 110. According to the present embodiment, the upgrade apparatus 200 may be connected to the first interface unit 110.

The first image processor 120 performs various preset image processing processes on the image signal received from the first interface unit 110. The first image processor 120 outputs an image signal on which the process is performed to the display unit 130 so that the image corresponding to the image signal is displayed on the display unit 130.

The type of the image processing process performed by the first image processor 120 is not limited. For example, de-multiplexing for distributing a predetermined signal as a signal for each characteristic may correspond to an image format of an image signal. Decoding, de-interlacing converting interlaced video signals to progressive, scaling to adjust video signals to preset resolutions, and noise reduction to improve image quality (noise reduction), detail enhancement, frame refresh rate conversion, and the like.

The first image processor 120 may include a printed circuit board such as various chipsets (not shown), memory (not shown), electronic components (not shown), and wiring (not shown) for performing such a process. It is implemented as an image processing board (not shown) mounted on the.

The display 130 displays an image based on the image signal output from the first image processor 120. The display unit 130 may be implemented in various forms including, but not limited to, a liquid crystal, a plasma, a light-emitting diode, an organic light-emitting diode, electron conduction electron-emitter, carbon nano-tube, nano-crystal, and the like.

The display unit 130 may further include an additional configuration depending on the implementation method. For example, when the display unit 130 is a liquid crystal type, the display unit 130 includes a liquid crystal display panel (not shown), a backlight unit (not shown) for supplying light thereto, and a panel (Not shown).

The user input unit 140 transmits various preset control commands or unlimited information to the first control unit 160 by a user's manipulation and input. The user input unit 140 may be implemented as a menu key and an input panel installed outside the display apparatus 100, or a remote controller separated from the display apparatus 100.

On the other hand, the user input unit 140 may be implemented integrally with the display unit 130. That is, when the display unit 130 is a touch screen, the user may transmit a preset command to the first control unit 160 through an input menu (not shown) provided in the display unit 130.

The first storage unit 150 stores data that is not limited according to the control of the first controller 160. The first storage unit 150 is implemented as a nonvolatile storage medium such as a flash memory and a hard disk drive. The first storage unit 150 is accessed by the first control unit 160 and read / write / modify / delete / update of data by the first control unit 160.

The data stored in the first storage unit 150 includes, for example, an operating system for driving the display apparatus 100, various applications executable on the operating system, image data, additional data, and the like.

The first controller 160 performs a control operation on various components of the display apparatus 100. For example, the first controller 160 may perform an image processing process processed by the first image processor 120, transmit / receive signals / information / data through the first interface unit 110, and the user input unit 140. The overall operation of the display apparatus 100 is controlled by performing a corresponding control operation with respect to the command from.

The display apparatus 100 having such a configuration requires an upgrade due to various factors including the development of technology as the use time elapses. In the case of requiring an upgrade, for example, when receiving a video signal of a new format that has not been proposed at the manufacturing stage of the display apparatus 100, or in accordance with a trend that requires a high quality image, the display apparatus 100 itself is required. There are various cases in which a video signal having a resolution higher than a supported level is received or a case in which a system load of the display apparatus 100 is to be further reduced.

The upgrade of the display apparatus 100 has aspects of hardware and software, respectively. According to the present exemplary embodiment, the upgrade apparatus 200 provided to upgrade the display apparatus 100 is connected to the first interface 110 to upgrade at least one of the existing hardware and software configurations of the display apparatus 100. .

The upgrade apparatus 200 includes a hardware / software configuration corresponding to at least some of the hardware / software resources of the display apparatus 100. These components included in the upgrade apparatus 200 are provided to perform an improved function than at least some of the above-described resources of the display apparatus 100. When the upgrade apparatus 200 is connected to the display apparatus 100, the upgrade apparatus 200 replaces at least some of the existing resources of the display apparatus 100, thereby finally improving the quality of the image displayed on the display apparatus 100.

Hereinafter, the configuration of the upgrade apparatus 200 will be described.

The upgrade apparatus 200 performs a process corresponding to at least a part of the image processing process of the second interface 210 and the first image processor 120 connected to the first interface 110 of the display apparatus 100. A second image processor 220 capable of processing, a second storage unit 250 for storing unlimited data / information, and a second controller 260 for controlling all operations of the upgrade apparatus 200.

The second interface unit 210 is connected to the first interface unit 110 to enable communication between the upgrade apparatus 200 and the display apparatus 100. The second interface unit 210 may be connected to at least one or more connection terminals (not shown) of the plurality of connection terminals (not shown) of the first interface unit 110.

For example, the second interface unit 210 may include an HDMI terminal such that an image signal is transmitted and received between the display apparatus 100 and the upgrade apparatus 200 among a plurality of connection terminals (not shown) of the first interface unit 110. And a USB terminal (not shown) to transmit and receive data and power, respectively. However, this is only one example, and the connection method between the first interface unit 110 and the second interface unit 210 may be implemented in various forms in addition to the above-described embodiments.

The second interface unit 210 of the first embodiment of the present invention includes a fixed interface 211 and a flow interface 212.

The fixed interface 211 is a universal interface such as a universal asynchronous receiver / transmitter (UART), an inter-integrated circuit (I2C), a USB, a component, or the like. The fixed interface 211 is connected to the display apparatus 100 to provide standard information of the first interface 110. And it can receive a power supply. In addition, the fixed interface 211 may include an HDMI for transmitting and receiving an image signal.

The flow interface 212 performs data communication with the display apparatus 100 in a standard corresponding to the first interface unit 110 based on the received standard information under the control of the second controller 260. Here, in the data signal transmitted and received through the floating interface 212, at least one of a signal configuration, a voltage level, and a transmission rate corresponds to a standard of the first interface.

The floating interface 212 is one in which the communication interface is extended using the physical configuration of the fixed interface 211. For example, when some of the input and output pins of the second interface 210 are used as the fixed interface 211, the second controller 260 controls the configuration, voltage level, transmission speed, and the like of the signals transmitted and received through the remaining pins. Can be used as interface 212.

In the first embodiment of the present invention, a signal transmitted and received through the floating interface 212 is described as an example of a data signal, but is not limited thereto. The floating interface 212 includes not only data signals but also various information, control signals, video signals, and power supplies. It can be implemented to be transmitted and received through).

In this way, it is possible to flexibly control the signals transmitted and received through the second interface unit 210, so that even if a new interface is applied to the upgrade apparatus 200, compatibility with the display apparatus 100 can be ensured.

The second image processor 220 may perform a second process corresponding to the first process with respect to at least a portion of the first process performed by the first image processor 120 in the display apparatus 100. The first process and the second process are referred to for the sake of convenience, and may also be one unit process or a plurality of unit processes. The second process is functionally improved compared to the first process, which is realized by improvement of hardware such as chipset or by improvement of software such as algorithm / executable code / program.

The second image processor 220 replaces the first process according to the control of the first controller 160 or the second controller 260 when the display apparatus 100 and the upgrade apparatus 200 are connected to the second process. Perform As such, in the image processing process, the second process functionally improved as compared to the first process is performed instead of the first process, thereby improving the overall image processing process. Detailed embodiments related to this will be described later.

The second storage unit 250 stores unlimited data. The second storage unit 250 is implemented as a nonvolatile storage medium such as a flash memory and a hard disk drive. The second storage unit 250 is accessed by the first control unit 160 or the second control unit 260, and read / write / modify / delete / update of data by them. Meanwhile, the first storage unit 150 may also be accessed by the second control unit 260 as well as the first control unit 160 according to an implementation method.

The second controller 260 performs a control operation on various components of the upgrade apparatus 200 for performing the overall image processing process. For example, the second controller 260 performs an image processing process processed by the second image processor 220, and transmits / receives signals / information / data through the second interface 210, thereby upgrading the device. The overall operation of the 200 is controlled.

The second controller 260 and the first controller 160 may be implemented as a central processing unit (CPU). If the second controller 260 can perform an improved function than the first controller 160, the second controller 260 may control the operation of the entire display system 1 by disabling the first controller 160 and replacing the first controller 160. Alternatively, the second controller 260 may control the operation of the entire display system 1 together with the first controller 160.

3 is a block diagram showing the configuration of the display apparatus 100 and the upgrade apparatus 200 constituting the display system 1 according to the second embodiment of the present invention.

The display system 1 according to the second embodiment of the present invention shown in FIG. 3 is compared to the display system 1 according to the first embodiment shown in FIG. 2. The control unit 270 further controls the interface unit 210. Therefore, other components other than the sub-control unit 270 used the same reference numerals and the same member name of the first embodiment, detailed description thereof will be omitted to avoid duplicate description.

As shown in FIG. 3, the second interface unit 210 of the second embodiment of the present invention includes a fixed interface 211 and a flow interface 212 as in the first embodiment.

The fixed interface 211 is a universal interface such as a universal asynchronous receiver / transmitter (UART), an inter-integrated circuit (I2C), a USB, a component, or the like. The fixed interface 211 is connected to the display apparatus 100 to provide standard information of the first interface 110. And it can receive a power supply. In addition, the fixed interface 211 may include an HDMI for transmitting and receiving an image signal.

The flow interface 212 performs data communication with the display apparatus 100 in a standard corresponding to the first interface 110 based on the received standard information under the control of the sub-control unit 270. Here, in the data signal transmitted and received through the floating interface 212, at least one of a signal configuration, a voltage level, and a transmission rate corresponds to a standard of the first interface.

The sub-control unit 270 is implemented as an integrated circuit (IC) such as a field-programmable gate array (FPGA), a microcomputer (Microcomputer), or the like.

The floating interface 212 is one in which the communication interface is extended using the physical configuration of the fixed interface 211. For example, when some of the input and output pins of the second interface 210 are used as the fixed interface 211, the second controller 260 controls the configuration, voltage level, transmission speed, and the like of the signals transmitted and received through the remaining pins. Can be used as interface 212.

In the second embodiment of the present invention, a signal transmitted and received through the floating interface 212 is described as an example of a data signal, but is not limited thereto. The floating interface 212 includes not only data signals but also various information, control signals, video signals, and power supplies. It can be implemented to be transmitted and received through).

The second embodiment of the present invention further provides a separate sub-control unit 270 for fluidly controlling the signals transmitted and received through the second interface unit 210, thereby reducing the burden on the second control unit 260, which is the main control unit, Even if a new interface is applied to the upgrade apparatus 200, compatibility with the display apparatus 100 may be ensured.

4 is a block diagram showing the configuration of the display apparatus 100 and the upgrade apparatus 200 constituting the display system 1 according to the third embodiment of the present invention.

The display system 1 according to the third embodiment of the present invention shown in FIG. 4 is compared with the display system 1 according to the first embodiment shown in FIG. 2. 1 The control unit 160 is the CPU (Central Processing Unit) (161, 261), the CPU (Graphic Processing Unit) (162, 262), the DSP (Digital Signal Processor) (163, 263), DDR memory (RAM) It is characterized in that it comprises a memory (164, 264), such as). Therefore, components other than the CPUs 161 and 261, the GPUs 162 and 262, the DSPs 163 and 263 and the memories 164 and 264 used the same reference numerals and the same member names of the first embodiment. In order to avoid duplicate descriptions, detailed descriptions will be omitted.

Hereinafter, a specific embodiment of upgrading the display apparatus 100 by the upgrade apparatus 200 will be described with reference to FIG. 5. 5 is a flowchart illustrating a method of upgrading an image processing process of the display apparatus 100 by the upgrade apparatus 200 in the display system 1 according to the present embodiment.

As shown in FIG. 5, when the display apparatus 100 receives a predetermined signal, for example, a broadcast signal from the image source 300 (411), the display apparatus 100 processes the image processing processes 412, 413, and the like of the preset sequence. 414). Examples of the image processing processes 412, 413, and 414 shown in the drawings only show a few examples to more concisely express an embodiment of the present invention. It is not shown.

The display apparatus 100 performs demultiplexing to classify the received broadcast signal into a video signal, an audio signal, and additional data (412). The display apparatus 100 performs processing on each signal on which demultiplexing is performed. For example, the display apparatus 100 decodes an image signal into a predetermined image format (413). The display apparatus 100 scales the decoded video signal to a predetermined resolution so as to display the decoded video signal as an image on the display 130 (414), and displays the scaled video signal as an image (415).

In the sequence, the upgrade apparatus 200 may be provided to perform a process 423 corresponding to the decoding process 413 of the display apparatus 100. The decoding process 423 that the upgrade apparatus 200 can perform is the same in terms of decoding as compared to the decoding process 413 that the display apparatus 100 can perform. Performing 423 may improve the image processing process.

For example, the former 423 can process a video signal having a resolution higher than that of the latter 413, or can process a video signal of a format that cannot be processed by the latter 413, or the latter 413. ) May be applied to the video signal.

Thus, the sequence of the image processing process according to the present embodiment is, according to the control of the first controller 160 or the second controller 260, after the demultiplexing step 412, the decoding step 413 of the display apparatus 100 ), The decoding step 423 of the upgrade apparatus 200 is performed. After the decoding step 423 of the upgrade apparatus 200, the scaling step 414 is performed.

According to such a sequence, an image signal and a control signal are transmitted and received between the display apparatus 100 and the upgrade apparatus 200, which are performed under the control of the first controller 160 or the second controller 260.

On the other hand, unlike the case of FIG. 4 in which some of the image processing processes are replaced, the second image processing unit 220 of the upgrade apparatus 200 also replaces the first image processing unit 120 of the display apparatus 100. Where possible, this will be described with reference to FIG. 6 below. FIG. 6 is a block diagram illustrating a process of transmitting an image signal received by the first interface unit 110 in the display system 1 according to the present embodiment.

Referring to FIG. 6, when the upgrade apparatus 200 is not connected to the display apparatus 100, when an image signal is received by the first interface unit 110 (431), it is transmitted to the first image processor 120. 432. The first image processor 120 processes the image signal and outputs the image signal to the display unit 130 (433), whereby the display unit 130 displays the image signal processed by the first image processor 120 as an image. do.

Meanwhile, as shown in FIG. 6, when the upgrade apparatus 200 is connected to the display apparatus 100, the image signal is received by the first interface unit 110 (431), and then the first image processing unit 120. It is transmitted to the second image processing unit 220 instead of (434). The second image processor 220 performs an image processing process on an image signal instead of the first image processor 120, and the image signal processed by the second image processor 220 is transmitted to the display apparatus 100 again. (435).

The video signal is bypassed so as not to be transmitted to the first image processor 120 and is transmitted to the display 130 (436), whereby the display 130 is processed by the second image processor 220. Display the video signal.

On the other hand, when the display apparatus 100 and the upgrade apparatus 200 are connected, the second controller 260 disables the first controller 160 and turns off the first image processor 120 and the second image processor 220. Can be controlled. Alternatively, when the operating system stored in the second storage unit 250 is version-up than the operating system stored in the first storage unit 150, the operating system of the first storage unit 150 is converted into the second storage unit 250. The operating system of the second storage unit 250 may be updated, and the operating system of the second storage unit 250 may be driven instead of the operating system of the first storage unit 150.

According to such a configuration, the upgrade apparatus 200 according to the present embodiment may upgrade the display apparatus 100.

Meanwhile, when the display apparatus 100 and the upgrade apparatus 200 are connected as described above, the first controller 160 of the display apparatus 100 transfers the information of the display apparatus 100 to the upgrade apparatus 200. Send.

Specifically, the first controller 160 of the display apparatus 100 according to the first and second embodiments of the present invention transmits the standard information of the first interface unit 110 to the upgrade apparatus 200.

The upgrade apparatus 200 receives standard information of the first interface unit 110 through the fixed interface 211 rule of the second interface unit 210, and the second controller 260 or the sub-control unit 270 is received. Communication configuration and control of the flow interface 212 of the second interface unit 210 is performed so that communication with the display apparatus 100 is performed in a standard corresponding to the standard information.

In detail, the second control unit 260 or the sub-control unit 270 may control at least one of a configuration, a voltage level, and a transmission rate of signals transmitted and received through the flow interface 212 to correspond to the first interface unit 110. Can be.

Here, the second storage unit 250 stores a table in which standard information of various interfaces and values corresponding to each standard, such as configuration, voltage level, and transmission rate, are stored, and the second controller 260 or the sub-controller ( 270 may control the flow interface 212 by reading respective values corresponding to the first interface unit 110 from the table.

In the first and second embodiments of the present invention, the standard of the first interface unit 110 may include at least one of UART, I2C, USB, and HDMI.

Thus, even if a new interface is applied to the upgrade apparatus 200, since the interface of the display apparatus 100 can be supported, interface compatibility between the display apparatus 100 and the upgrade apparatus 200 is secured.

Meanwhile, when the display apparatus 100 and the upgrade apparatus 200 are connected, the first control unit 160 of the display apparatus 100 according to the third embodiment of the present invention receives the power information of the display apparatus 100 first. Transmission to the upgrade apparatus 200 through the interface unit 110.

The power information is information on the amount of power that the display apparatus 100 can supply to the upgrade apparatus 200, and the upgrade apparatus 200 corresponds to power corresponding to the power information from the display apparatus 100 through the second interface 210. To be supplied.

The second interface unit 210 of the upgrade apparatus 200 may be connected to the USB terminal of the first interface unit 110 provided in the display apparatus 100 to receive power information and power.

The second controller 260 of the upgrade apparatus 200 determines the driving speed of the upgrade apparatus 200 based on the power information of the display apparatus 100.

The second controller 260 adjusts a setting value of an adjustment item including at least one of a CPU frequency, a GPU frequency, a DSP frequency, and a memory bus speed. The driving speed of the upgrade apparatus 200 may be determined.

Here, the second controller 260 may adjust the setting value of the adjustment item according to the operation mode of the display apparatus 100. The operation mode of the display apparatus 100 includes a TV mode, a game mode, an internet mode, a sports mode, a music mode, and the like.

To this end, the first controller 160 of the display apparatus 100 controls the first interface 110 to further transmit information about the operation mode of the display apparatus 100 to the upgrade apparatus 200.

The second controller 260 controls the second interface 210 to receive information on the operation mode from the display apparatus 100, and dynamically adjusts the setting values of each adjustment item to correspond to the received operation mode. The driving speed of the upgrade apparatus 200 is determined. For example, in the game mode, the GPU frequency may be set higher for the TV mode or the Internet mode.

The second storage unit 250 stores driving speed information corresponding to power information of the display apparatus 100. When the second controller 260 receives the power information of the display apparatus 100, the second controller 260 reads the driving speed information of the corresponding interface apparatus 200 from the second storage unit 250, and drives the driving speed of the upgrade apparatus 200. Can be determined.

Here, the second storage unit 250 stores a table in which setting values of each adjustment item are stored corresponding to the operation mode of the display apparatus 100, and the second control unit 260 receives the received power information and operation mode information. By setting the setting value of the adjustment item corresponding to the can be determined from the table, the drive speed of the upgrade apparatus 200 can be determined.

The second controller 260 operates at the driving speed determined in the above manner.

In addition, the display apparatus 100 may change its operation mode according to a user input. When the operation mode of the display apparatus 100 is changed, the first controller 160 notifies the upgrade apparatus 200 through the first interface 110, and the second controller 260 responds to the changed operation mode. You can reset the setting value of the adjustment item.

The display apparatus 100 may be different from the power that can be supplied to the upgrade apparatus 200 according to the product specification, and thus, the display apparatus 100 may not receive the power required by the upgrade apparatus 200. In this case, the upgrade apparatus 200 may not operate normally due to lack of power, or the display apparatus 100 may supply excessive power, thereby causing a malfunction due to power instability.

Therefore, since the upgrade apparatus 200 of the third embodiment of the present invention operates at an optimal driving speed corresponding to the power information of the display apparatus 100, both the display apparatus 100 and the upgrade apparatus 200 may operate stably. It becomes possible.

Meanwhile, the second controller 260 may compare the driving speed of the upgrade apparatus 200 determined according to the power information with the driving speed of the display apparatus 100. As a result, when the driving speed of the upgrade apparatus 200 is less than or equal to the driving speed of the display apparatus 100, the second controller 260 is disabled and the first controller 160 replaces the second controller 260 to display the display. The operation of the entire system 1 can be controlled.

In this case, the first controller 160 controls the first image processor 120 to process the image signal without transmitting the image signal to the upgrade apparatus 200, and processes the image from the first image processor 120. The display 130 may be controlled to receive a signal and display a corresponding image. Here, in some cases, the first controller 160 may control the second image processor 120 to process the image signal.

In addition, when the driving speed of the upgrade apparatus 200 is less than or equal to the driving speed of the display apparatus 100, the first controller 160 replaces a part of the function of the second controller 260, so that the first controller 160 and the first controller 160 are replaced. Both of the second controllers 260 may operate to control the operation of the display system 1.

When the display apparatus 100 replaces all or part of the function of the upgrade apparatus 200 as described above, not only the safety of the operation of the display system 1 may be secured but also the efficiency may be increased.

Hereinafter, a control method of the display system 1 according to the present embodiment will be described with reference to the drawings.

7 is a flowchart illustrating a control method of the display apparatus 100 according to the first or second embodiment of the present invention.

As illustrated in FIG. 7, the upgrade apparatus 200 is connected to the first interface unit 110 of the display apparatus 100 to upgrade hardware / software (S102).

When the upgrade apparatus 200 is connected, the first controller 160 transmits the standard information of the first interface 110 as the information of the display apparatus 100 to the upgrade apparatus 200. To control (S104).

In addition, the first controller 160 performs communication setting of the first interface unit 110 to perform communication according to the standard transmitted in step S104 (S106).

Meanwhile, the first controller 160 controls the first interface unit 110 to transmit the video signal received from the video source to the upgrade apparatus 200 (S108).

In addition, the first controller 160 controls the first interface unit 110 to receive the image signal processed by the upgrade apparatus 200 (S110).

The first controller 160 controls the display 130 to display an image corresponding to the image signal received in step S110 (S112).

8 is a flowchart illustrating a control method of the upgrade apparatus 200 according to the first or second embodiment of the present invention.

As shown in FIG. 8, the upgrade apparatus 200 is connected to the first interface unit 110 of the display apparatus 100 to upgrade hardware / software (S202).

When connected to the display apparatus 100, the second controller 260 receives the standard information of the first interface 110 as the information of the display apparatus 100 through the fixed interface 211 of the second interface 210. It receives (S204).

The second control unit 260 or the sub-control unit 270 communicates the flow interface 212 of the second interface unit 210 with the standard corresponding to the first interface unit 110 based on the standard information received in step S204. By performing the setting, the flow interface 212 is controlled to perform communication according to the corresponding communication setting (S206). Here, the second control unit 260 or the sub-control unit 270 controls at least one of the configuration, voltage level and transmission rate of the signal transmitted and received through the flow interface unit 212 to correspond to the first interface unit 110. . The signal transmitted and received through the flow interface unit 212 may be a data signal, but is not limited thereto.

Meanwhile, the upgrade apparatus 200 receives an image signal from the display apparatus 100 through the second interface 210 (S208). Here, the video signal may be received through the fixed interface 211 or the floating interface 212.

Next, the second controller 260 controls the second image processor 220 to process the image signal received in step S208 (S210).

In addition, the second controller 160 or the sub-control unit 270 controls the second interface unit 210 to transmit the processed image signal to the display apparatus 100 (S212).

As described above, according to the first and second embodiments of the present invention, since the upgrade apparatus performs the operation based on the information of the display apparatus, compatibility with the pre-sold display apparatus is ensured and the stability of the operation can be improved. Will be.

Specifically, even if a new interface is applied to the upgrade apparatus 200, backward compatibility with the interface of the pre-sold display apparatus 100 is secured, and the function of the upgrade apparatus 200 can be expanded.

In addition, by providing a separate sub-control unit for controlling the interface unit 210 in the upgrade apparatus 200, it is possible to efficiently compatible with the interface with the display apparatus 100 while reducing the burden on the main controller.

9 and 10 are flowcharts illustrating a control method of the display apparatus 100 according to the third embodiment of the present invention.

As shown in FIG. 9, the upgrade apparatus 200 is connected to the first interface unit 110 of the display apparatus 100 to upgrade hardware / software (S302).

When the upgrade apparatus 200 is connected, the first controller 160 supplies power information (power information that the display apparatus 100 can supply to the upgrade apparatus 200) as the information of the display apparatus 100. In the step S304, the first interface 110 transmits the data.

The first controller 160 receives drive speed information of the upgrade apparatus 200 determined in correspondence with the power information transmitted in step S304 (S306).

When the connection of the upgrade is detected in step S302, the first controller 160 controls the first interface unit 110 to transmit the video signal received from the video source to the upgrade apparatus 200 (S308).

In addition, the first controller 160 controls the first interface unit 110 to receive the image signal processed by the upgrade apparatus 200 (S310).

The first controller 160 controls the display 130 to display an image corresponding to the image signal received in step S310 (S312).

10 is different from the embodiment of FIG. 9 in that the driving speed received from the upgrade apparatus 200 is compared with the driving speed of the display apparatus 100.

As shown in FIG. 10, the upgrade apparatus 200 is connected to the first interface unit 110 of the display apparatus 100 to upgrade hardware / software (S402).

When the upgrade apparatus 200 is connected, the first controller 160 transmits power information of the display apparatus 100 to the upgrade apparatus 200 through the first interface 110 (S404).

The first controller 160 receives drive speed information of the upgrade apparatus 200 determined in correspondence with the power information transmitted in step S404 (S406).

The first controller 160 compares the driving speed information received in step S406 with the driving speed of the display apparatus 100 (S408).

As a result of the comparison of step S408, when the driving speed of the upgrade apparatus 200 is faster than the driving speed of the display apparatus 100, the first controller 160 transmits an image signal received from an image source to the upgrade apparatus 200. The first interface unit 110 is controlled (S410).

The first controller 160 controls the first interface 110 to receive the image signal processed by the upgrade apparatus 200 (S412).

As a result of the comparison of step S408, when the driving speed of the upgrade apparatus 200 is less than or equal to the driving speed of the display apparatus 100, the performance of the second controller 260 may be equal to or less than that of the first controller 160. As such, the second controller 260 is disabled and the first controller 160 performs an operation (S414). Here, the first controller 160 may control the first image processor 120 or the second image processor 220 to perform image processing. When the second image processing unit 220 performs image processing, in operation S414, image signals and control signals are transmitted and received through the first and second interface units 110 and 120 under the control of the first controller 160. Process.

In operation S416, the first controller 160 controls the display 130 to display an image corresponding to the image signal processed in step S412 or S414.

11 and 12 are flowcharts illustrating a control method of the upgrade apparatus 200 according to the third embodiment of the present invention.

As shown in FIG. 11, the upgrade apparatus 200 is connected to the first interface unit 110 of the display apparatus 100 to upgrade hardware / software (S502).

When connected to the display apparatus 100, the second control unit 260 may provide power information (the display apparatus 100 to the upgrade apparatus 200) as the information of the display apparatus 100 through the second interface unit 210. Power information) can be received (S504).

The second controller 260 determines the driving speed of the upgrade apparatus 200 in response to the power information received in step S504 (S506). Here, the driving speed of the upgrade apparatus 200 may be determined by promoting setting values of adjustment items such as CPU frequency, GPU frequency, DSP frequency, and memory bus speed. In addition, the setting value of the adjustment item may be determined according to the operation mode of the display apparatus 100.

The second controller 260 receives the video signal from the display apparatus 100 by operating at the driving speed determined in step S506 (S508).

Next, the second controller 260 controls the second image processor 220 to operate at the driving speed determined in step S506 to process the received image signal (S510).

The second controller 160 controls the second interface unit 210 to transmit the processed video signal to the display apparatus 100 (S512).

The embodiment shown in FIG. 12 differs from the embodiment of FIG. 11 in that the determined driving speed of the upgrade apparatus 200 is compared with the driving speed of the display apparatus 100.

As shown in FIG. 12, the upgrade apparatus 200 is connected to the first interface unit 110 of the display apparatus 100 to upgrade hardware / software (S602).

When connected to the display apparatus 100, the second control unit 260 may provide power information (the display apparatus 100 to the upgrade apparatus 200) as the information of the display apparatus 100 through the second interface unit 210. Power information)) (S604).

The second controller 260 determines the driving speed of the upgrade apparatus 200 in response to the power information received in step S604 (S606). Here, the driving speed of the upgrade apparatus 200 may be determined by promoting setting values of adjustment items such as CPU frequency, GPU frequency, DSP frequency, and memory bus speed. In addition, the setting value of the adjustment item may be determined according to the operation mode of the display apparatus 100.

The second controller 160 compares the driving speed determined in step S606 with the driving speed of the display apparatus 100 (S608).

As a result of the comparison in step S408, when the driving speed of the upgrade apparatus 200 is faster than the driving speed of the display apparatus 100, the second controller 260 operates at the driving speed determined in step S606 to display an image from the display apparatus 100. Receive a signal (S610).

Next, the second controller 260 operates at the driving speed determined in operation S606 to control the second image processor 220 to process the received image signal (S612).

The second controller 160 controls the second interface 210 to transmit the processed video signal to the display apparatus 100 (S614).

As a result of the comparison of step S608, when the driving speed of the upgrade apparatus 200 is less than or equal to the driving speed of the display apparatus 100, the performance of the second controller 260 may be equal to or less than that of the first controller 160. In operation S616, the second controller 260 is disabled and the command for causing the first controller 160 to perform an operation is transmitted to the display apparatus 100. Here, the second image processor 220 may perform image processing under the control of the first controller 160. When the second image processor 220 performs image processing, in step S616, the image signal and the control signal are transmitted and received through the first and second interface units 110 and 120 under the control of the first controller 160. Process.

As described above, according to the third embodiment of the present invention, since the upgrade apparatus performs the operation based on the information of the display apparatus, compatibility with the previously sold display apparatus can be ensured, and stability of the operation can be improved.

Specifically, by operating the upgrade apparatus 100 at a speed optimized for power information that the display apparatus 100 can provide, thereby preventing malfunction of the display apparatus 100 and the upgrade apparatus 200 and improving the stability of the operation. It can be improved.

In addition, by adjusting the setting value of each adjustment item according to the mode of the display apparatus 100 to control the driving speed, it is possible to increase the user's satisfaction and to control the driving speed more efficiently.

In addition, when the upgrade apparatus 200 has a performance equal to or lower than that of the display apparatus 100 according to the determined driving speed, the controller of the display apparatus 100 is operated to increase the efficiency of the entire system.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

1: display system
100: display device
110: first interface unit
120: first image processing unit
130: display unit
140: user input section
150: first storage unit
160: first control unit
200: upgrade device
210: second interface unit
220: second image processing unit
250: second storage unit
260: second control unit
270: sub-control unit

Claims (48)

In the upgrade device of the display device,
An interface unit connected to the display device for displaying an image and communicating with the display device;
An image processor which processes an image signal corresponding to an image displayed on the display apparatus;
When the upgrade apparatus is connected to the display apparatus through the interface unit, the image processor processes the image signal to control the image processor to display an image on the display apparatus, and the upgrade apparatus is based on information received from the display apparatus. The upgrade apparatus comprising a control unit for controlling to operate. The method of claim 1,
The interface unit includes a second interface unit connected to the first interface unit of the display device, the second interface unit for communicating with the first interface unit,
The information includes standard information of the first interface unit,
The control unit controls the second interface unit to perform communication with the display apparatus according to a standard corresponding to the first interface unit when the upgrade apparatus is connected to the display apparatus through the second interface unit. Upgrade device. The method of claim 2,
The control unit, the upgrade apparatus, characterized in that for controlling at least one of the configuration, the voltage level and the transmission rate of the signal transmitted and received through the second interface unit corresponding to the first interface unit. The method of claim 2,
The second interface unit,
And a fixed interface for receiving standard information of the first interface unit, and a floating interface for communicating with the display apparatus in a standard corresponding to the first interface. 5. The method according to any one of claims 2 to 4,
And the control unit includes a sub-control unit that controls the second interface unit to perform communication with the display apparatus in a standard corresponding to the first interface unit. The method according to claim 6,
And the sub-control unit is an integrated circuit including at least one of an FPGA and a microcomputer. The method of claim 1,
The information includes power information of the display device,
The controller controls the interface unit to receive the power information from the display apparatus, determines a driving speed of the upgrade apparatus based on the received power information, and operates at the determined driving speed. . The method of claim 7, wherein
The control unit includes a CPU, a GPU, a DSP, and a memory, and drives the upgrade apparatus according to a setting value of an adjustment item including at least one of the CPU frequency, the GPU frequency, the DSP frequency, and the memory bus speed. Upgrade apparatus, characterized in that for determining the speed. 9. The method of claim 8,
And the controller is configured to determine the driving speed of the upgrade apparatus by adjusting the set value of the adjustment item according to the operation mode of the display apparatus. 10. The method of claim 9,
The operation mode of the display device includes at least one of a TV mode, a game mode, an Internet mode, a sports mode and a music mode. The method of claim 10,
The control unit, the upgrade apparatus, characterized in that for resetting the setting value of the adjustment item, when the operation mode of the display device is changed. The method of claim 7, wherein
The controller compares the determined driving speed of the upgrade apparatus with the driving speed of the display apparatus, and when the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the controller of the display apparatus performs an operation. Upgrade apparatus, characterized in that to make. The method of claim 7, wherein
The apparatus may further include a storage unit in which driving speed information of the upgrade apparatus corresponding to power information of the display apparatus is stored.
And the control unit determines the driving speed stored corresponding to the received power information as the driving speed of the upgrade apparatus. 14. The method according to any one of claims 7 to 13,
The power information includes power information that the display device can supply to the upgrade apparatus.
And the control unit controls the interface unit to receive power corresponding to the power information from the display device. In the display device,
An interface unit for communicating with an upgrade apparatus for processing an image signal received from at least one image source;
An image processor which processes the received image signal;
A display unit for displaying the processed video signal as an image;
When the upgrade apparatus is connected through the interface unit, the interface unit controls the interface unit to transmit the information of the display apparatus and the image signal received from the image supply source to the upgrade apparatus and receive the processed image signal from the upgrade apparatus. And a control unit which controls the display unit to display the processed video signal as an image. 16. The method of claim 15,
And the control unit transmits the standard information of the interface unit to the upgrade apparatus and controls the interface unit to communicate with the upgrade apparatus in a standard corresponding to the interface unit. 17. The method of claim 16,
And the interface unit transmits at least one of a configuration, a voltage level, and a transmission rate of a signal transmitted and received through the interface unit to the upgrade apparatus. 16. The method of claim 15,
And the control unit transmits power information of the display apparatus to the upgrade apparatus. 19. The method of claim 18,
And the interface unit further receives driving speed information of the upgrade apparatus determined based on power information of the transmitted display apparatus from the upgrade apparatus. 20. The method of claim 19,
The driving speed of the upgrade apparatus is determined according to a setting value of an adjustment item including at least one of a CPU frequency, a GPU frequency, a DSP frequency, and a memory bus speed of the controller of the upgrade apparatus. 21. The method of claim 20,
The driving speed of the upgrade apparatus is determined by adjusting the set value of the adjustment item according to the operation mode of the display apparatus.
The operation mode of the display apparatus includes at least one of a TV mode, a game mode, an Internet mode, a sports mode, and a music mode. The method of claim 21,
And the control unit controls the interface unit to receive the driving speed information of the upgrade apparatus determined by resetting a setting value of the adjustment item when the operation mode of the display apparatus is changed. 20. The method of claim 19,
The controller compares the determined driving speed of the upgrade apparatus with the driving speed of the display apparatus, and when the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the controller of the display apparatus performs an operation. Display device, characterized in that to make. 20. The method of claim 19,
The power information includes power information that the display device can supply to the upgrade apparatus.
And the control unit controls the interface unit to supply power corresponding to the power information to the upgrade apparatus. In the control method of the upgrade apparatus of the display apparatus,
Connecting the upgrade apparatus for processing an image signal corresponding to an image displayed on the display apparatus to the display apparatus;
Receiving, by the upgrade apparatus, information of the display apparatus;
And operating, based on the received information, the upgrade apparatus to receive and process the video signal from the display apparatus through the interface. 26. The method of claim 25,
The information of the display device includes standard information of the first interface unit of the display device,
Performing communication setting of a second interface of the upgrade apparatus to perform communication with the display apparatus in a standard corresponding to the first interface unit according to the received standard information;
And receiving the video signal from the display device through the second interface. The method of claim 26,
The performing of the communication setting may include setting at least one of a configuration, a voltage level, and a transmission rate of a signal transmitted and received with the display device to correspond to the first interface unit. The method of claim 26,
The second interface unit includes a fixed interface for receiving standard information of the first interface unit, and a floating interface for communicating with the display apparatus in a standard corresponding to the first interface.
The performing of the communication setting may include performing communication setting of the floating interface. 29. The method according to any one of claims 26 to 28,
The upgrade apparatus further includes a sub-control unit which controls the second interface unit to perform communication with the display apparatus in a standard corresponding to the first interface unit.
And the sub-control unit is an integrated circuit including at least one of an FPGA and a microcomputer. 26. The method of claim 25,
Receiving the information of the display device includes the step of the power supply receives the power information of the display device,
Determining a driving speed of the upgrade apparatus based on the received power information of the display apparatus;
The upgrade apparatus further comprises the step of operating at the determined drive speed control method of the upgrade apparatus. 31. The method of claim 30,
Determining a driving speed of the upgrade apparatus,
And adjusting a setting value of an adjustment item including at least one of a CPU frequency, a GPU frequency, a DSP frequency, and a memory bus speed of the control unit. 32. The method of claim 31,
Adjusting the setting value includes adjusting the setting value of the adjustment item according to the operation mode of the display device,
The operation mode of the display apparatus includes at least one of a TV mode, a game mode, an internet mode, a sports mode, and a music mode. 33. The method of claim 32,
Adjusting the set value,
And resetting a setting value of the adjustment item when the operation mode of the display device is changed. 31. The method of claim 30,
Comparing a driving speed of the upgraded device with a driving speed of the display device;
And if the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the control unit of the display apparatus further performing an operation. 31. The method of claim 30,
Storing driving speed information of the upgrade apparatus corresponding to power information of the display apparatus;
The determining of the driving speed of the upgrade apparatus may include determining the driving speed stored corresponding to the received power information as the driving speed of the upgrade apparatus. 31. The method of claim 30,
The power information includes power information that the display device can supply to the upgrade apparatus.
The upgrade apparatus further comprises the step of receiving the power corresponding to the power information from the display device. A method of controlling a display device,
Connecting an upgrade apparatus for processing an image signal received from at least one image source to the display apparatus;
Transmitting information of the display apparatus to the upgrade apparatus;
Transmitting the video signal to the upgrade apparatus;
Receiving an image signal processed by the upgrade apparatus;
And displaying the received video signal as an image. 39. The method of claim 37,
The transmitting of the information to the upgrade apparatus includes transmitting standard information of the first interface unit of the display apparatus to the upgrade apparatus.
And communicating with the upgrade apparatus in a standard corresponding to the first interface unit. The method of claim 38,
The performing of the communication with the upgrade apparatus may include performing communication so that at least one of a configuration, a voltage level, and a transmission rate of a signal transmitted and received through the first interface unit corresponds to the first interface unit. Control method of the display device. 39. The method of claim 37,
The transmitting of the information to the upgrade apparatus includes transmitting power information of the display apparatus to the upgrade apparatus.
And receiving driving speed information of the upgrade apparatus determined based on power information of the transmitted display apparatus from the upgrade apparatus. 41. The method of claim 40,
The driving speed of the upgrade apparatus is determined according to a setting value of an adjustment item including at least one of a CPU frequency, a GPU frequency, a DSP frequency, and a memory bus speed of the controller of the upgrade apparatus. . 42. The method of claim 41,
The driving speed of the upgrade apparatus is determined by adjusting the set value of the adjustment item according to the operation mode of the display apparatus.
The operation mode of the display apparatus includes at least one of a TV mode, a game mode, an internet mode, a sports mode, and a music mode. 43. The method of claim 42,
And receiving driving speed information of the upgrade apparatus determined by resetting a setting value of the adjustment item when the operation mode of the display apparatus is changed. 41. The method of claim 40,
Comparing the determined driving speed of the upgrade apparatus with the driving speed of the display apparatus;
And if the driving speed of the upgrade apparatus is less than or equal to the driving speed of the display apparatus, the control unit of the display apparatus further comprises performing an operation. 41. The method of claim 40,
The power information includes power information that the display device can supply to the upgrade apparatus.
And supplying power corresponding to the power information to the upgrade apparatus. In a display system comprising a display device and an upgrade device,
The display device,
A first interface unit for communicating with an upgrade apparatus for processing an image signal received from at least one image source; A first image processor which processes the received image signal; A display unit which displays the processed video signal; When the upgrade apparatus is connected through the interface unit, controlling the first interface unit to transmit information of the display apparatus to the upgrade apparatus, and controlling the display unit to display an image signal processed by the upgrade apparatus as an image. 1 control unit,
The upgrade device,
A second interface unit connected to the first interface unit to communicate with the display apparatus, a second image processor configured to process an image signal corresponding to an image displayed on the display unit, and to process the image signal; An upgrade apparatus including a second controller configured to control a second image processor and to operate the upgrade apparatus based on information received from the display apparatus when the upgrade apparatus is connected to the display apparatus through the second interface unit. Display system comprising a. 47. The method of claim 46,
The information includes standard information of the first interface unit,
And the second control unit controls the second interface unit to perform communication with the display apparatus in a standard corresponding to the first interface unit. 47. The method of claim 46,
The information includes power information of the display device,
And the second controller determines a driving speed of the upgrade apparatus based on the received power information of the display apparatus, and operates at the determined driving speed.

Images